CN214776827U - Packagine machine moves brick equipment - Google Patents

Abstract

The utility model discloses a packagine machine moves brick equipment belongs to ceramic machine field, including guide rail, lifting unit spare, double-layered brick part, the guide rail level sets up, and the portable setting of lifting unit spare is on the guide rail. The lifting component comprises a supporting plate and a lifting driving device, the supporting plate can be movably arranged on the guide rail, and the lifting driving device is arranged on the supporting plate. The brick clamping component comprises a base frame, a longitudinal clamping component and a transverse clamping component, the base frame is arranged below the supporting plate and driven by the lifting driving device to move up and down, the longitudinal clamping component and the transverse clamping component can be movably mounted on the base frame, and a clamping position is formed between the longitudinal clamping component and the transverse clamping component. The equipment can be used for transferring large-scale ceramic tiles, is safe and efficient, and can effectively improve the ceramic tile packaging efficiency of enterprises.

Description

Packagine machine moves brick equipment

Technical Field

The utility model relates to a ceramic machine field, concretely relates to packagine machine moves brick equipment.

Background

The ceramic industry in China has been continuously developed for many years at a high speed, the market competition is intensified day by day, the profits of enterprises are reduced year by year, and the control and cost reduction or the efficiency improvement of automation equipment become the competitive improvement choices of more and more enterprises. In this case, the measures taken by the enterprise are to improve competitiveness by controlling and reducing cost, so that improving production efficiency of the automation equipment becomes a key for determining whether the enterprise wins the competition. When the ceramic tile is produced and packed, the brick pillar needs to be packed by using packing equipment. The brick pile moving equipment needs to use the brick pile which is moved and stacked on the packaging equipment, but the brick moving efficiency of the existing brick pile moving equipment is low and the brick pile moving equipment is not firm.

Chinese patent CN106184876B is a fast folding box clamping and holding mechanism for tile packaging, which provides a mechanism for fast and completely wrapping a tile pile by a paper box stuck above the tile pile, and fast clamping and holding the tile pile to the next station. The mechanism comprises a horizontal moving assembly, a vertical lifting assembly and a folding box gripper assembly. The method has the advantages of high speed, short time, high efficiency, small occupied space and the like. But the mechanism is not suitable for moving large-scale ceramic tiles and cannot meet the requirements of large-scale ceramic tile production and packaging of enterprises.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a packagine machine moves brick equipment, this equipment can be used to shift large-scale ceramic tile, and is safe high-efficient, can effectively improve enterprise's ceramic tile packing efficiency.

In order to realize the purpose of the utility model, the utility model adopts the following technical scheme:

a brick moving apparatus of a packaging machine, comprising:

the guide rail is horizontally arranged; further comprising:

the lifting component comprises a supporting plate and a lifting driving device, the supporting plate is movably arranged on the guide rail, and the lifting driving device is arranged on the supporting plate;

the brick clamping component comprises a base frame, a longitudinal clamping component and a transverse clamping component, wherein the base frame is located below the supporting plate and driven by the lifting driving device to move up and down, the longitudinal clamping component and the transverse clamping component are movably installed on the base frame, and a clamping position for clamping a brick pile is formed between the longitudinal clamping component and the transverse clamping component.

In the preferred technical solution of the present invention, the lifting driving device includes a first motor, a guiding bracket and a guiding shaft, the guiding bracket and the first motor are both fixed on the supporting plate, the guiding shaft is vertically disposed on the guiding bracket and can move up and down along the guiding bracket, the first motor drives the guiding shaft to move up and down, and the bottom of the guiding shaft is fixedly connected to the base frame; an auxiliary cylinder is also arranged between the supporting plate and the base frame.

The utility model discloses in the technical scheme of preferred, the guiding axle sets up two, two the guiding axle sets up respectively the both sides that the guide bracket is relative, still be provided with the reduction gear in the backup pad, the output of first motor with the input of reduction gear is connected, the reduction gear is equipped with two outputs, two the output respectively through a transmission shaft with the guiding axle is connected.

The utility model discloses in the technical scheme of preferred, still include the hold-in range, the hold-in range with the guide rail is parallel to be set up, the hold-in range is by second motor drive, the backup pad bottom is equipped with the spout, the spout with guide rail sliding fit, the backup pad passes through the spout with the sliding fit movable mounting of guide rail is in on the guide rail, the backup pad bottom with hold-in range fixed connection.

In the preferred technical solution of the present invention, two guide rails are provided, and the two guide rails are provided in parallel; the hold-in range sets up two, every the hold-in range is close to one respectively the guide rail sets up.

In a preferred technical solution of the present invention, the base frame includes a transverse support and a longitudinal support, the transverse support and the longitudinal support are disposed in a staggered manner and perpendicular to each other, and the transverse support is disposed along the length direction of the guide rail; the two transverse clamping components are arranged on the transverse bracket oppositely.

In the preferred technical solution of the present invention, the two lateral clamping members have the same structure and shape, and each of the two lateral clamping members includes a first mounting seat, a first cylinder and a first clamping plate; a guide groove is formed in the transverse support along the length direction of the guide rail, the first mounting seat is movably arranged in the guide groove, the first air cylinder is mounted on the first mounting seat, the first clamping plate is fixed on a piston rod of the first air cylinder, and the first air cylinder drives the first clamping plate to move horizontally; the first clamping plate is an L-shaped plate, the two clamping plates of the transverse clamping components are arranged oppositely, and a rubber pad is arranged on the surface of the first clamping plate.

The utility model discloses in the technical scheme of preferred, vertical support sets up horizontal support middle part, vertical support both ends are equipped with the mounting groove, vertical hold assembly sets up two, two vertical hold assembly sets up respectively vertical support both ends in the mounting groove.

In the preferred technical solution of the present invention, the longitudinal clamping member includes a second mounting seat, a second cylinder and a second clamping plate, the second mounting seat is mounted in the mounting groove, and the second mounting seat is provided with a locking clamp for locking the second mounting seat in the mounting groove; the second cylinder is fixed on the second mounting seat, the second clamping plate is fixed on a piston rod of the second cylinder, the second cylinder drives the second clamping plate to move horizontally, the second clamping plate is an L-shaped plate, and a rubber pad is arranged on the surface of the second clamping plate.

The utility model discloses in the technical scheme of preferred, the bed frame bottom is equipped with stop device, stop device includes connecting rod and spacing seat, the connecting rod is fixed the bed frame bottom, spacing seat is fixed connecting rod bottom, spacing seat surface is equipped with the buffer layer.

The utility model has the advantages that:

the utility model provides a pair of packagine machine moves brick equipment, this equipment can be used to shift large-scale ceramic tile, and the portable setting of lift part is on the guide rail, presss from both sides the setting of brick part on the lift part, in the brick pillar packaging process, and the brick pillar claps neat cornerite back, presss from both sides the brick part and descends to brick pillar department under the drive of lift part to press from both sides tight brick pillar, then the lift part removes, and the next process after the cornerite is transferred to the brick pillar. The positions of the transverse clamping part and the longitudinal clamping part of the tile clamping part can be moved, namely the size of the clamping position can be adjusted, so that the equipment can clamp piled tiles of different sizes, has wide application range and can be used for packaging large-scale piled tiles. And horizontal clamping part and vertical clamping part press from both sides tight brick pillar from horizontal and vertical two directions, consequently can not drop at the brick pillar of transfer in-process, and is safe high-efficient, can effectively improve enterprise's ceramic tile packing efficiency.

Drawings

Fig. 1 is a top view of a brick moving device of a packaging machine provided by the present invention;

fig. 2 is a front view of the brick moving device of the packaging machine provided by the present invention;

fig. 3 is a side view of the brick moving device of the packaging machine provided by the present invention;

fig. 4 is a front view of the longitudinal holder and the longitudinal clamping member provided by the present invention;

fig. 5 is a top view of the longitudinal support and the longitudinal clamping member provided by the present invention.

Reference numerals:

200. a guide rail; 202. a second motor; 300. a lifting member; 302. a lift drive; 304. a support plate; 400. a base frame; 402. a transverse support; 404. a longitudinal support; 406. a lateral clamping member; 408. a longitudinal clamping member; 500. a synchronous belt; 3021. a guide bracket; 3022. a first motor; 3023. a guide shaft; 3024. a speed reducer; 3025. a drive shaft; (ii) a 3026. An auxiliary cylinder; 4000. a clamping brick component; 4021. a guide groove; 4042. mounting grooves; 4051. a connecting rod; 4052. a limiting seat; 4053. a buffer layer; 4061. a first mounting seat; 4062. a first cylinder; 4063. a first clamping plate; 4081. a second mounting seat; 4082. a second cylinder; 4083. a second clamping plate; 4084. a rubber pad; 4085. and a locking clamp.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that, if the present invention relates to a directional indication, the directional indication is only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture, and if the specific posture is changed, the directional indication is changed accordingly. In addition, if there is a description relating to "first", "second", etc. in the embodiments of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated.

As shown in fig. 1-5, a brick moving device of a packing machine comprises two guide rails 200, wherein the guide rails 200 are horizontally arranged, and further, the two guide rails 200 are arranged in parallel; further comprising:

the lifting component 300 comprises a supporting plate 304 and a lifting driving device 302, wherein the supporting plate 304 is movably arranged on the guide rail 200, and the lifting driving device 302 is arranged on the supporting plate 304;

the brick clamping component 4000 comprises a base frame 400, a longitudinal clamping component 408 and a transverse clamping component 406, wherein the base frame 400 is positioned below the supporting plate 304 and driven by the lifting driving device 302 to move up and down, the longitudinal clamping component 408 and the transverse clamping component 406 are both movably arranged on the base frame 400, and a clamping position for clamping a brick pile is formed between the longitudinal clamping component 408 and the transverse clamping component 406. Further, still include hold-in range 500, further, hold-in range 500 sets up two, every hold-in range 500 is close to one respectively guide rail 200 sets up. Hold-in range 500 with guide rail 200 sets up in parallel, hold-in range 500 is driven by second motor 202, the backup pad 304 bottom is equipped with the spout, the spout with guide rail 200 sliding fit, the backup pad 304 passes through the spout with guide rail 200's sliding fit is portable to be installed on the guide rail 200, backup pad 304 bottom with hold-in range 500 fixed connection. The second motor 202 adopts a servo motor, so that the movement control of the synchronous belt 500 is more accurate.

More specifically, the guide rail 200 is mounted on the packaging machine, while the lifting member 300 is mounted on the guide rail 200 and the brick clamping member 4000 is mounted on the lifting member 300. In the process of packaging the ceramic tiles, the ceramic tiles are firstly beaten and wrapped at corners and then are moved to edge covering equipment through the transfer equipment. In the corner wrapping process of a brick pillar, the brick clamping component 4000 is positioned above the brick pillar, when the brick pillar behind the corner wrapping needs to be moved, the lifting driving device 302 drives the brick clamping component 4000 to fall, when the brick clamping component 4000 falls to the position of the brick pillar, the brick clamping component 4000 is started, the longitudinal clamping component 408 and the transverse clamping component 406 are started, and the position is firstly adjusted to the edge of the brick pillar and the brick pillar falls to the distance of 10mm-15mm from the bottom surface of the brick pillar. The longitudinal gripping members 408 and the transverse gripping members 406 then co-act, the tile being clamped in the gripping position. After the tile is clamped, the lifting driving device 302 is started again to drive the tile clamping component 4000 to move upwards, the second motor 202 drives the synchronous belt 500 to rotate, and the synchronous belt 500 drives the supporting plate 304 to move on the guide rail 200, so that the tile stack can be conveyed to the next process of packaging. After the brick pillar is conveyed to the right position, the brick clamping component 4000 returns again to convey the next brick pillar, and the brick clamping component 4000 reciprocates on the guide rail 200 to efficiently finish the transfer of the ceramic tiles.

The brick moving device of the packaging machine can be used for moving large-sized ceramic tiles, the lifting component 300 can be movably arranged on the guide rail 200, the brick clamping component 4000 is arranged on the lifting component 300, in the brick pile packaging process, after a brick pile is beaten to wrap corners, the brick clamping component 4000 is driven by the lifting component 300 to descend to the brick pile and clamp the brick pile, then the lifting component 300 moves, and the brick pile is transferred to the next process after the wrapping corners. The positions of the transverse clamping part and the longitudinal clamping part 408 of the tile clamping part 4000 can be moved, so that the size of the clamping position can be adjusted instead of being unchanged, and the equipment can clamp piled tiles with different sizes, has wide application range and can be used for packaging large-scale piled tiles. And horizontal clamping part and vertical clamping part 408 press from both sides tight brick pillar from horizontal, vertical two directions, consequently can not drop at the brick pillar of transfer in-process, and is safe high-efficient, can effectively improve enterprise's ceramic tile packing efficiency.

Further, the lifting driving device 302 includes a first motor 3022, a guide bracket 3021, and a guide shaft 3023, and the guide shaft 3023 is made of an aluminum profile, so that the weight of the guide shaft 3023 can be reduced. The guide support 3021 and the first motor 3022 are both fixed on the support plate 304, the guide shaft 3023 is vertically arranged on the guide support 3021 and can move up and down along the guide support 3021, the first motor 3022 drives the guide shaft 3023 to move up and down, and the bottom of the guide shaft 3023 is fixedly connected with the base frame 400; an auxiliary cylinder 3026 is further disposed between the support plate 304 and the base frame 400, the auxiliary cylinder 3026 is used to assist the first motor 3022 to drive the frame 400 to ascend and descend, the auxiliary cylinder 3026 controls air pressure with a tight pressure regulating valve to maintain a ventilation state all the time, and when the first motor 3022 ascends, the auxiliary cylinder 3026 assists in pulling up the base frame 400. When the first motor 3022 drives the base frame 400 to descend, the auxiliary cylinder 3026 functions as a cushion brake. Furthermore, two guide shafts 3023 are provided on two opposite sides of the guide bracket 3021, respectively, a speed reducer 3024 is further provided on the support plate 304, an output end of the first motor 3022 is connected to an input end of the speed reducer 3024, and two output ends of the speed reducer 3024 are connected to the guide shafts 3023 through a transmission shaft 3025, respectively. The guide bracket 3021 supports the installation of the guide shaft 3023 and guides the movement of the guide shaft 3023, and more specifically, a through hole is formed in the support plate 304 for the guide shaft 3023 to pass through, the first motor 3022 drives the transmission shaft 3025 to rotate by driving the reducer 3024 to operate, the transmission shaft 3025 and the guide shaft 3023 are engaged with each other through a gear, the rotating transmission shaft 3025 drives the guide shaft 3023 to move up and down, and the guide shaft 3023 penetrates through the support plate 304 to move up and down. The guide shaft 3023 moving up and down drives the base frame 400 to move up and down, so that the position of the brick clamping component 4000 can be changed. The speed reducer 3024 plays a role in transmission on one hand, and on the other hand, the ascending and descending moving speed of the whole brick clamping component 4000 can be conveniently adjusted, so that the transfer process is controllable, and the stability of the transfer process is improved.

Further, the base frame 400 includes a transverse bracket 402 and a longitudinal bracket 404, the transverse bracket 402 and the longitudinal bracket 404 are disposed alternately and perpendicular to each other, and the transverse bracket 402 is disposed along the length direction of the guide rail 200; the two lateral holding members 406 are provided, and the two lateral holding members 406 are oppositely provided on the lateral bracket 402. The transverse bracket 402 is used for mounting the transverse clamping member 406, the longitudinal bracket 404 is used for mounting the longitudinal clamping member 408, and more specifically, the longitudinal bracket 404 is located in the middle of the transverse bracket 402.

Further, the two lateral clamping members 406 have the same structure and shape, and each includes a first mounting seat 4061, a first cylinder 4062, and a first clamping plate 4063; the transverse bracket 402 is provided with a guide groove 4021 along the length direction of the guide rail 200, and the first mounting seat 4061 is movably arranged in the guide groove 4021, and more specifically, the guide groove may also be a wear-resistant guide rail. The first cylinder 4062 is mounted on the first mounting base 4061, the first clamping plate 4063 is fixed on the piston rod of the first cylinder 4062, and the first cylinder 4062 drives the first clamping plate 4063 to move horizontally; the first clamping plate 4063 is an "L" shaped plate, two of the two transverse clamping components 406 are arranged opposite to each other on the first clamping plate 4063, and a rubber pad 4084 is arranged on the surface of the first clamping plate 4063. More specifically, the transverse bracket 402 is provided with a driving device for driving the first mounting seat 4061 to move, and the first mounting seat 4061 is driven by the driving device to move, so that the position between the two transverse clamping components 406 can be adjusted according to the size of the brick pile. During clamping, the base frame 400 is moved to the vicinity of the brick pile, and then the driving device drives the first mounting seats 4061 to move, so that the two first mounting seats 4061 are positioned outside the edge of the brick pile. When the first cylinder 4062 is located above the brick pile, the first clamping plate 4063 driven by the first cylinder 4062 moves, and the lifting driving device 302 drives the base frame 400 to move downwards, so that the bottom of the first clamping plate 4063 is located below the brick pile. Then the piston rod of the first cylinder 4062 contracts, so that the two first clamping plates 4063 clamp the brick pillar, and the bottom of the first clamping plates 4063 has a supporting effect on the brick pillar, so that the brick pillar cannot fall down. Finally, the lifting driving device 302 drives the base frame 400 to move upwards, and the brick pile is clamped and can be transferred. The surface pads 4084 of the first clamping plate 4063 change the contact between the brick pile and the first clamping plate 4063 from rigid contact to flexible contact, which prevents the brick pile from being damaged by the first clamping plate 4063.

Further, the longitudinal bracket 404 is disposed in the middle of the transverse bracket 402, two mounting grooves 4042 are disposed at two ends of the longitudinal bracket 404, two longitudinal clamping components 408 are disposed, and the two longitudinal clamping components 408 are disposed in the mounting grooves 4042 at two ends of the longitudinal bracket 404, respectively. Further, the longitudinal clamping member 408 comprises a second mounting seat 4081, a second air cylinder 4082 and a second clamping plate 4083, the second mounting seat 4081 is mounted in the mounting groove 4042, a locking clip 4085 is disposed on the second mounting seat 4081, and the locking clip 4085 locks the second mounting seat 4081 in the mounting groove 4042; second cylinder 4082 is fixed on second mount pad 4081, second grip block 4083 is fixed on the piston rod of second cylinder 4082, second cylinder 4082 drives second grip block 4083 horizontal migration, second grip block 4083 is "L" template, two on the lateral support 402 along the length direction of guide rail 200 is equipped with guide way 4021, second grip block 4083 surface is equipped with cushion 4084. When the locking clamp 4085 is opened, the longitudinal clamp portion 408 can move on the longitudinal support 404, and when the locking clamp 4085 is closed, the longitudinal clamp portion 408 is locked and cannot move. The locking clamp 4085 allows the position of the longitudinal clamping member 408 to be controlled and adjusted to accommodate the transfer of different sized stacks. The longitudinal clamping member 408 and the transverse clamping member 406 are adapted to support and clamp the tile pile after being adjusted in place, so that the tile pile does not fall off during the moving process, thereby ensuring the safety of the moving tile pile.

Further, the pedestal 400 bottom is equipped with stop device, stop device includes connecting rod 4051 and spacing seat 4052, connecting rod 4051 is fixed the pedestal 400 bottom, spacing seat 4052 is fixed connecting rod 4051 bottom, spacing seat 4052 surface is equipped with buffer layer 4053. The limiting device senses the brick clamping component 4000 to move to the proper position, when the rubber pad 4084 falls on the surface of the brick pile, which indicates that the base frame 400 is moved to the proper position, the control system of the whole equipment can control the transverse clamping component 406 and the longitudinal clamping component 408 to clamp the brick pile. The rubber pad 4084 can prevent the limit seat 4052 from damaging the brick pile.

Variations and modifications to the above-described embodiments may occur to those skilled in the art, in light of the above teachings and teachings. Therefore, the present invention is not limited to the specific embodiments disclosed and described above, and some modifications and changes to the present invention should fall within the protection scope of the claims of the present invention. In addition, although specific terms are used in the specification, the terms are used for convenience of description and do not limit the utility model in any way.

Claims (10)

1. A brick moving apparatus of a packaging machine, comprising:

the guide rail (200), the said guide rail (200) sets up horizontally; it is characterized by also comprising:

the lifting component (300) comprises a supporting plate (304) and a lifting driving device (302), the supporting plate (304) is movably arranged on the guide rail (200), and the lifting driving device (302) is arranged on the supporting plate (304);

the brick clamping component (4000) comprises a base frame (400), a longitudinal clamping component (408) and a transverse clamping component (406), wherein the base frame (400) is located below the supporting plate (304) and driven by the lifting driving device (302) to move up and down, the longitudinal clamping component (408) and the transverse clamping component (406) are movably mounted on the base frame (400), and a clamping position for clamping a brick pile is formed between the longitudinal clamping component (408) and the transverse clamping component (406).

2. The brick moving apparatus of the packing machine according to claim 1, wherein:

the lifting driving device (302) comprises a first motor (3022), a guide support (3021) and a guide shaft (3023), the guide support (3021) and the first motor (3022) are both fixed on the support plate (304), the guide shaft (3023) is vertically arranged on the guide support (3021) and can move up and down along the guide support (3021), the first motor (3022) drives the guide shaft (3023) to move up and down, and the bottom of the guide shaft (3023) is fixedly connected with the base frame (400); an auxiliary cylinder (3026) is also arranged between the support plate (304) and the base frame (400).

3. The brick moving apparatus of the packing machine according to claim 2, wherein:

guide shaft (3023) set up two, two guide shaft (3023) set up respectively guide holder (3021) relative both sides, still be provided with reduction gear (3024) on backup pad (304), the output of first motor (3022) with the input of reduction gear (3024) is connected, reduction gear (3024) are equipped with two outputs, two the output respectively through a transmission shaft (3025) with guide shaft (3023) are connected.

4. The brick moving apparatus of the packing machine according to claim 1, wherein:

still include hold-in range (500), hold-in range (500) with guide rail (200) are parallel to be set up, hold-in range (500) are driven by second motor (202), backup pad (304) bottom is equipped with the spout, the spout with guide rail (200) sliding fit, backup pad (304) are passed through the spout with the sliding fit of guide rail (200) is portable to be installed on guide rail (200), backup pad (304) bottom with hold-in range (500) fixed connection.

5. The brick moving apparatus of the packing machine according to claim 4, wherein:

two guide rails (200) are arranged, and the two guide rails (200) are arranged in parallel; the synchronous belt (500) is provided with two synchronous belts, and each synchronous belt (500) is close to one guide rail (200).

6. The brick moving apparatus of the packing machine according to claim 5, wherein:

the base frame (400) comprises transverse brackets (402) and longitudinal brackets (404), the transverse brackets (402) and the longitudinal brackets (404) are arranged in a staggered mode and are perpendicular to each other, and the transverse brackets (402) are arranged along the length direction of the guide rail (200); the two transverse clamping components (406) are arranged, and the two transverse clamping components (406) are oppositely arranged on the transverse bracket (402).

7. The brick moving apparatus of the packing machine according to claim 6, wherein:

the two transverse clamping components (406) are identical in structure and shape and respectively comprise a first mounting seat (4061), a first air cylinder (4062) and a first clamping plate (4063); a guide groove (4021) is formed in the transverse bracket (402) along the length direction of the guide rail (200), the first mounting seat (4061) is movably arranged in the guide groove (4021), the first air cylinder (4062) is mounted on the first mounting seat (4061), the first clamping plate (4063) is fixed on a piston rod of the first air cylinder (4062), and the first air cylinder (4062) drives the first clamping plate (4063) to horizontally move; first grip block (4063) is "L" template, two of horizontal clamping part (406) first grip block (4063) sets up relatively, first grip block (4063) surface is equipped with cushion (4084).

8. The brick moving apparatus of the packing machine according to claim 6, wherein:

the longitudinal support (404) is arranged in the middle of the transverse support (402), mounting grooves (4042) are formed in two ends of the longitudinal support (404), two longitudinal clamping components (408) are arranged, and the two longitudinal clamping components (408) are respectively arranged in the mounting grooves (4042) in two ends of the longitudinal support (404).

9. The packaging machine brick moving apparatus according to claim 8, wherein:

the longitudinal clamping component (408) comprises a second installation seat (4081), a second air cylinder (4082) and a second clamping plate (4083), the second installation seat (4081) is installed in the installation groove (4042), a locking clamp (4085) is arranged on the second installation seat (4081), and the locking clamp (4085) locks the second installation seat (4081) in the installation groove (4042); second cylinder (4082) are fixed on second mount pad (4081), second grip block (4083) are fixed on the piston rod of second cylinder (4082), second cylinder (4082) drive second grip block (4083) horizontal migration, second grip block (4083) are "L" template, second grip block (4083) surface is equipped with cushion (4084).

10. The brick moving apparatus of the packing machine according to any one of claims 1 to 9, wherein:

the bed frame (400) bottom is equipped with stop device, stop device includes connecting rod (4051) and spacing seat (4052), connecting rod (4051) are fixed bed frame (400) bottom, spacing seat (4052) are fixed connecting rod (4051) bottom, spacing seat (4052) surface is equipped with buffer layer (4053).

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